Gene Regulatory Networks in the Design of Approaches to Slow Aging

Source https://www.fightaging.org/archives/2025/03/gene-regulatory-networks-in-the-design-of-approaches-to-slow-aging/

Researchers here outline how it is possible to use what is known of gene regulatory networks in order to design better approaches to slow aging. Proteins interact with one another, and feedback loops involving interactions and changes in expression among many proteins determine each aspect of cell behavior. The key realization is that in such a complex system, one has to think about these networks rather than any one individual protein in order to maximize the chance of producing a useful approach to altering cell behavior.

Earlier aging studies focused on individual genes or pathways in isolation and measured lifespan as a static endpoint. As a result, how aging-related genes interact with one another and how these gene regulatory networks (GRNs) operate dynamically to drive aging remain significant unanswered challenges. G…

Source https://www.fightaging.org/archives/2025/03/gene-regulatory-networks-in-the-design-of-approaches-to-slow-aging/

Researchers here outline how it is possible to use what is known of gene regulatory networks in order to design better approaches to slow aging. Proteins interact with one another, and feedback loops involving interactions and changes in expression among many proteins determine each aspect of cell behavior. The key realization is that in such a complex system, one has to think about these networks rather than any one individual protein in order to maximize the chance of producing a useful approach to altering cell behavior.

Earlier aging studies focused on individual genes or pathways in isolation and measured lifespan as a static endpoint. As a result, how aging-related genes interact with one another and how these gene regulatory networks (GRNs) operate dynamically to drive aging remain significant unanswered challenges. G…

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